WO2016035378A1 - インクジェット記録装置及びインクジェット記録方法 - Google Patents
インクジェット記録装置及びインクジェット記録方法 Download PDFInfo
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- WO2016035378A1 WO2016035378A1 PCT/JP2015/062351 JP2015062351W WO2016035378A1 WO 2016035378 A1 WO2016035378 A1 WO 2016035378A1 JP 2015062351 W JP2015062351 W JP 2015062351W WO 2016035378 A1 WO2016035378 A1 WO 2016035378A1
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- WIPO (PCT)
- Prior art keywords
- paper
- ink
- suction
- unit
- image
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/0015—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form for treating before, during or after printing or for uniform coating or laminating the copy material before or after printing
- B41J11/002—Curing or drying the ink on the copy materials, e.g. by heating or irradiating
- B41J11/0021—Curing or drying the ink on the copy materials, e.g. by heating or irradiating using irradiation
- B41J11/00216—Curing or drying the ink on the copy materials, e.g. by heating or irradiating using irradiation using infrared [IR] radiation or microwaves
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/0015—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form for treating before, during or after printing or for uniform coating or laminating the copy material before or after printing
- B41J11/002—Curing or drying the ink on the copy materials, e.g. by heating or irradiating
- B41J11/0022—Curing or drying the ink on the copy materials, e.g. by heating or irradiating using convection means, e.g. by using a fan for blowing or sucking air
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J11/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, for supporting or handling copy material in sheet or web form
- B41J11/0085—Using suction for maintaining printing material flat
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J13/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in short lengths, e.g. sheets
- B41J13/0009—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in short lengths, e.g. sheets control of the transport of the copy material
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J13/00—Devices or arrangements of selective printing mechanisms, e.g. ink-jet printers or thermal printers, specially adapted for supporting or handling copy material in short lengths, e.g. sheets
- B41J13/10—Sheet holders, retainers, movable guides, or stationary guides
- B41J13/22—Clamps or grippers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
- B41J2/00—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed
- B41J2/005—Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by bringing liquid or particles selectively into contact with a printing material
- B41J2/01—Ink jet
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M5/00—Duplicating or marking methods; Sheet materials for use therein
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41M—PRINTING, DUPLICATING, MARKING, OR COPYING PROCESSES; COLOUR PRINTING
- B41M7/00—After-treatment of prints, e.g. heating, irradiating, setting of the ink, protection of the printed stock
- B41M7/009—After-treatment of prints, e.g. heating, irradiating, setting of the ink, protection of the printed stock using thermal means, e.g. infrared radiation, heat
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H29/00—Delivering or advancing articles from machines; Advancing articles to or into piles
- B65H29/02—Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles
- B65H29/04—Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles the grippers being carried by endless chains or bands
- B65H29/041—Delivering or advancing articles from machines; Advancing articles to or into piles by mechanical grippers engaging the leading edge only of the articles the grippers being carried by endless chains or bands and introducing into a pile
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H5/00—Feeding articles separated from piles; Feeding articles to machines
- B65H5/08—Feeding articles separated from piles; Feeding articles to machines by grippers, e.g. suction grippers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2801/00—Application field
- B65H2801/24—Post -processing devices
- B65H2801/31—Devices located downstream of industrial printers
Definitions
- the present invention relates to an ink jet recording apparatus and an ink jet recording method, and more particularly to a drying technique for preventing waviness and wrinkles of paper after recording.
- a method is known in which paper after image recording is dried while being conveyed by a chain gripper (Patent Document 1).
- Patent Document 1 A method in which paper after image recording is dried while being conveyed by a chain gripper (Patent Document 1).
- the conveyance guide need not be driven and can be fixed. Therefore, since a cooling device such as a water cooling device can be easily mounted on the transport guide, a heater having a high heat quantity can be mounted as a drying unit. For this reason, it is an advantageous method for drying paper without generating scratches in a short time.
- Patent Document 2 a back tension applying mechanism that applies a back tension to a paper sheet P that is conveyed while its leading edge is gripped by a chain gripper sucks air from a guide plate and suction holes formed in the guide plate. A technology composed of a mechanism is described.
- the present invention has been made in view of such circumstances, and an object thereof is to provide an ink jet recording apparatus and an ink jet recording method for preventing the generation of waviness and wrinkles of a paper when the paper is dried while being conveyed. .
- an ink jet recording apparatus includes an image recording unit that records an image by an ink jet method using an aqueous ink containing water as a solvent on a recording surface of a sheet of paper, and an image on the recording surface.
- an ink drying processing section that dries while transporting the recorded paper, and includes a transport unit that grips the leading edge of the paper and transports the paper along the transport path, and is transported provided along the transport path.
- An ink drying processing unit having a suction unit that sucks the paper, and the ink drying processing unit uses a suction region that sucks the paper by the suction unit at a position upstream of the first position of the transport path, Conveying the paper downstream as non suction region than location, the first location is set to a position where the residual water content of the paper is 1.0 g / m 2 or more 3.0 g / m 2 or less.
- the first of the conveyance path is used.
- the sheet is transported with the suction area by the suction means upstream from the position 1 and the non-suction area downstream from the first position, and the remaining water amount of the sheet is 1.0 g / m 2 or more 3 at the first position. Since the position is set to 0.0 g / m 2 or less, it is possible to prevent the occurrence of waviness and wrinkling of the paper when the paper is dried while being conveyed.
- the ink drying processing unit preferably dries the paper until the residual water amount of the paper becomes 0.7 g / m 2 or less. Thereby, the paper can be appropriately dried.
- the ink drying processing unit adjusts the heating amount of the heating unit according to the weight per unit area of the paper. Thereby, the paper can be appropriately dried.
- the guide means includes a temperature adjustment means for adjusting the temperature of the guide surface. Thereby, overheating and dew condensation of the guide surface can be prevented.
- the conveying means is preferably a chain gripper. Thereby, the paper can be appropriately conveyed.
- the heating means preferably includes an infrared heater and a hot air unit. Thereby, the paper can be appropriately heated.
- one aspect of an ink jet recording method includes an image recording step of recording an image by an ink jet method using an aqueous ink containing water as a solvent on a recording surface of a sheet of paper, and an image on the recording surface.
- An ink drying processing step having a suction step for sucking the paper, and the ink drying processing step is a suction area for sucking the paper by the suction step on the upstream side of the first position of the transport path.
- the first position to convey the sheet downstream as non suction region the first position is set at a position where the residual water content of the paper is 1.0 g / m 2 or more 3.0 g / m 2 or less.
- the first of the conveyance path is used.
- the sheet is transported with the suction area by the suction means upstream from the position 1 and the non-suction area downstream from the first position, and the remaining water amount of the sheet is 1.0 g / m 2 or more 3 at the first position. Since the position is set to 0.0 g / m 2 or less, it is possible to prevent the occurrence of waviness and wrinkling of the paper when the paper is dried while being conveyed.
- the paper In the ink drying process, it is preferable to dry the paper until the residual water amount of the paper becomes 0.7 g / m 2 or less. Thereby, the paper can be appropriately dried.
- the ink drying process it is preferable to adjust the heating amount of the heating means according to the weight per unit area of the paper. Thereby, the paper can be appropriately dried.
- FIG. 1 is an overall configuration diagram showing an overall schematic configuration of an inkjet recording apparatus.
- FIG. 2 is a block diagram showing a schematic configuration of a control system of the ink jet recording apparatus.
- FIG. 3 is an enlarged view of the ink drying processing unit.
- FIG. 4 is a diagram showing experimental conditions for paper drying characteristics.
- FIG. 5 is a table showing the experimental results of the paper drying property.
- FIG. 6 is a graph showing the experimental results of paper drying characteristics.
- FIG. 7 is a diagram showing undulations and wrinkles generated on a sheet.
- FIG. 8 is a diagram showing the evaluation results of wrinkles and swells in paper drying.
- the ink jet recording apparatus 10 is an ink jet recording apparatus that records a color image by ejecting four colors of water-based inks of cyan (C), magenta (M), yellow (Y), and black (K) on a sheet.
- a water-based ink is an ink whose main component is water, and a coloring material such as a dye or a pigment is dissolved or dispersed in water and a solvent soluble in water.
- the inkjet recording apparatus 10 mainly includes a sheet feeding unit 12 that feeds a sheet P that is a sheet recording medium, and a surface (recording surface) of the sheet P fed from the sheet feeding unit 12. ), A treatment liquid applying unit 14 for applying the treatment liquid, a treatment liquid drying processing unit 16 for drying the paper P coated with the treatment liquid, and an ink droplet on the surface of the dried paper P by an inkjet method.
- the sheet feeding unit 12 feeds the sheets P stacked on the sheet feeding table 30 to the processing liquid applying unit 14 one by one.
- the paper feed unit 12 mainly includes a paper feed stand 30, a soccer device 32, a paper feed roller pair 34, a feeder board 36, a front pad 38, and a paper feed drum 40.
- the paper P is placed on the paper feed tray 30 in a bundled state in which a large number of sheets are stacked.
- the sheet feed table 30 is provided so as to be lifted and lowered by a sheet feed table lifting device (not shown).
- the paper feed platform lifting device is driven in conjunction with the increase / decrease of the paper P stacked on the paper feed platform 30 so that the paper P positioned at the top of the bundle is always at a constant height.
- the paper feed table 30 is moved up and down.
- the soccer device 32 picks up the sheets P stacked on the sheet feeding table 30 one by one from the top and feeds them to the pair of sheet feeding rollers 34.
- the soccer device 32 includes a suction foot 32A that is movable up and down and swingable.
- the suction foot 32A sucks and holds the upper surface of the paper P, and the paper P is fed from the paper feed table 30 to the paper feed roller pair 34.
- Transport At this time, the suction foot 32A attracts and holds the top surface of the front end side of the paper P positioned at the top of the bundle to pull up the paper P, and the front end of the paper P that has been lifted is used as a pair of paper feed rollers 34. Insert between rollers 34A and 34B.
- the paper feed roller pair 34 includes a pair of upper and lower rollers 34A and 34B that are pressed against each other.
- One of the pair of upper and lower rollers 34A and 34B is a driving roller (roller 34A) and the other is a driven roller (roller 34B).
- the driving roller (roller 34A) is driven by a motor (not shown) and rotates.
- the motor is driven in conjunction with the feeding of the paper P.
- the motor rotates the driving roller (roller 34A) in accordance with the timing.
- the paper P inserted between the pair of upper and lower rollers 34A and 34B is nipped by the rollers 34A and 34B, and is sent out in the rotation direction of the rollers 34A and 34B (installation direction of the feeder board 36).
- the feeder board 36 is formed corresponding to the paper width, and receives the paper P sent out from the paper feed roller pair 34 and guides it to the front pad 38.
- the feeder board 36 is installed such that the front end side is inclined downward, and the sheet P placed on the conveyance surface is slid along the conveyance surface and guided to the front pad 38.
- a plurality of tape feeders 36A for conveying the paper P are installed at intervals in the width direction.
- the tape feeder 36A is formed in an endless shape, and is driven to rotate by a motor (not shown).
- the paper P placed on the conveyance surface of the feeder board 36 is fed by the tape feeder 36A and conveyed on the feeder board 36.
- a retainer 36B and a roller 36C are installed on the feeder board 36.
- a plurality of retainers 36 ⁇ / b> B are arranged in a longitudinal line along the conveyance surface of the paper P (two in this example).
- the retainer 36 ⁇ / b> B is configured using a leaf spring having a width corresponding to the sheet width, and is placed in pressure contact with the conveyance surface.
- the paper P conveyed on the feeder board 36 by the tape feeder 36A passes through the retainer 36B, so that the unevenness is corrected.
- the retainer 36 ⁇ / b> B is formed by curling the rear end portion so that the paper P can be easily introduced between the retainer 36 ⁇ / b> B and the feeder board 36.
- the roller 36C is disposed between the front and rear retainers 36B.
- the roller 36C is placed in pressure contact with the transport surface of the paper P.
- the sheet P conveyed between the front and rear retainers 36B is conveyed while the upper surface is suppressed by the rollers 36C.
- the front pad 38 corrects the posture of the paper P.
- the front pad 38 is formed in a plate shape and is disposed orthogonal to the transport direction of the paper P. Further, it is driven by a motor (not shown) so as to be swingable.
- the leading edge of the sheet P conveyed on the feeder board 36 is brought into contact with the front pad 38 to correct the posture (so-called skew prevention).
- the front pad 38 swings in conjunction with the paper feeding to the paper feeding drum 40 and delivers the paper P whose posture has been corrected to the paper feeding drum 40.
- the paper feed drum 40 receives the paper P fed from the feeder board 36 via the front pad 38 and conveys it to the processing liquid application unit 14.
- the paper supply drum 40 is formed in a cylindrical shape and is driven to rotate by a motor (not shown).
- a gripper 40A is provided on the outer peripheral surface of the paper feed drum 40, and the leading edge of the paper P is gripped by the gripper 40A.
- the paper feed drum 40 conveys the paper P to the treatment liquid application unit 14 while winding the paper P around the peripheral surface by gripping and rotating the front end of the paper P with the gripper 40A.
- the paper feed unit 12 is configured as described above.
- the sheets P stacked on the sheet feeding table 30 are pulled up one by one in order from the top by the soccer device 32 and fed to the pair of sheet feeding rollers 34.
- the paper P fed to the paper feed roller pair 34 is fed forward by a pair of upper and lower rollers 34A, 34B constituting the paper feed roller pair 34 and placed on the feeder board 36.
- the paper P placed on the feeder board 36 is transported by a tape feeder 36 ⁇ / b> A provided on the transport surface of the feeder board 36.
- the retainer 36B is pressed against the transport surface of the feeder board 36 in the transport process, and the unevenness is corrected.
- the sheet P conveyed by the feeder board 36 has its leading end brought into contact with the front pad 38 to correct the inclination, and is then transferred to the sheet feeding drum 40. Then, it is transported by the paper feed drum 40 to the processing liquid application unit 14.
- the treatment liquid application unit 14 applies a treatment liquid having a function of aggregating ink on the surface (recording surface) of the paper P.
- the treatment liquid application unit 14 mainly includes a treatment liquid application drum 42 that conveys the paper P, and a treatment liquid application device 44 that applies the treatment liquid to the surface (recording surface) of the paper P conveyed by the treatment liquid application drum 42. And is configured.
- the treatment liquid coating drum 42 functions as a holding unit (recording medium holding unit) for the sheet P as a recording medium, and also functions as a conveying unit for the sheet P as a recording medium.
- the paper P is received from 40, held on the outer peripheral surface and rotated to convey the paper P to the processing liquid drying processing unit 16.
- the treatment liquid coating drum 42 is formed in a cylindrical shape and is driven to rotate by a motor (not shown).
- a gripper 42A is provided on the outer peripheral surface of the treatment liquid coating drum 42, and the leading edge of the paper P is gripped by the gripper 42A.
- the processing liquid coating drum 42 conveys the paper P to the processing liquid drying processing unit 16 (one rotation) while the paper P is wound around the peripheral surface by gripping and rotating the leading edge of the paper P with the gripper 42A.
- the rotation of the processing liquid coating drum 42 and the paper feed drum 40 is controlled so that the timing of receiving and delivering the paper P is matched. That is, it drives so that it may become the same peripheral speed, and it drives so that the position of a mutual gripper may match.
- the treatment liquid application device 44 functions as a treatment liquid application unit that applies the treatment liquid to the surface of the paper P conveyed by the treatment liquid application drum 42.
- the treatment liquid application device 44 is constituted by, for example, a roller application device, and applies a treatment liquid to the surface of the paper P by bringing a coating roller having a treatment liquid applied to the peripheral surface thereof into pressure contact with the surface of the paper P.
- the treatment liquid coating device 44 can be constituted by, for example, a head that ejects and applies a treatment liquid by an ink jet method, or a spray that sprays and applies the treatment liquid.
- the treatment liquid application unit 14 is configured as described above.
- the paper P delivered from the paper supply drum 40 of the paper supply unit 12 is received by the processing liquid application drum 42.
- the treatment liquid coating drum 42 grips the leading end of the paper P with the gripper 42A and rotates, so that the paper P is wound around the circumferential surface and conveyed. In this conveyance process, the application roller is pressed against the surface of the paper P, the application roller rolls on the paper, and the processing liquid is applied to the surface of the paper P.
- the treatment liquid applied by the treatment liquid application unit 14 is composed of a liquid containing an aggregating agent that aggregates the components in the ink composition.
- the flocculant may be a compound that can change the pH of the ink composition, a polyvalent metal salt, or a polyallylamine.
- Preferred examples of the compound capable of lowering the pH include highly water-soluble acidic substances (phosphoric acid, oxalic acid, malonic acid, citric acid, derivatives of these compounds, or salts thereof).
- An acidic substance may be used individually by 1 type, and may use 2 or more types together. Thereby, cohesion can be improved and the whole ink can be fixed.
- the pH (25 ° C.) of the ink composition is 8.0 or more, and the pH (25 ° C.) of the treatment liquid is preferably in the range of 0.5-4. As a result, it is possible to increase the image density, resolution, and speed of inkjet recording.
- the treatment liquid may contain additives such as, for example, drying inhibitors (wetting agents), antifading agents, emulsion stabilizers, penetration enhancers, ultraviolet absorbers, preservatives, antifungal agents, pH adjusters, It can contain known additives such as surface tension modifiers, antifoaming agents, viscosity modifiers, dispersants, dispersion stabilizers, rust inhibitors and chelating agents.
- the processing liquid drying processing unit 16 performs a drying process on the paper P having a processing liquid applied to the surface.
- the processing liquid drying processing unit 16 mainly blows hot air on the processing liquid drying processing drum 46 that transports the paper P, the paper transport guide 48, and the recording surface of the paper P that is transported by the processing liquid drying processing drum 46.
- a processing liquid drying processing unit 50 for drying is
- the processing liquid drying processing drum 46 receives the paper P from the processing liquid coating drum 42 of the processing liquid application unit 14 and conveys the paper P to the image recording unit 18.
- the treatment liquid drying treatment drum 46 is constituted by a frame assembled in a cylindrical shape, and is rotated by being driven by a motor (not shown).
- a gripper 46A is provided on the outer peripheral surface of the processing liquid drying processing drum 46, and the leading edge of the paper P is gripped by the gripper 46A.
- the processing liquid drying processing drum 46 conveys the paper P to the image recording unit 18 by gripping and rotating the leading edge of the paper P with the gripper 46A.
- the treatment liquid drying treatment drum 46 of this example is configured so that the grippers 42A are disposed at two locations on the outer peripheral surface, so that two sheets of paper P can be conveyed by one rotation.
- the rotations of the processing liquid drying processing drum 46 and the processing liquid coating drum 42 are controlled so that the timing of receiving and delivering the paper P matches each other. That is, it drives so that it may become the same peripheral speed, and it drives so that the position of a mutual gripper may match.
- the paper transport guide 48 is arranged along the transport path of the paper P by the processing liquid drying processing drum 46 and guides the transport of the paper P.
- the processing liquid drying processing unit 50 is installed inside the processing liquid drying processing drum 46 and performs drying processing by blowing hot air toward the surface of the paper P conveyed by the processing liquid drying processing drum 46.
- the two processing liquid drying processing units 50 are arranged in the processing liquid drying processing drum, and are configured to blow hot air toward the surface of the paper P conveyed by the processing liquid drying processing drum 46. ing.
- the treatment liquid drying processing unit 16 is configured as described above.
- the paper P delivered from the treatment liquid application drum 42 of the treatment liquid application unit 14 is received by the treatment liquid drying treatment drum 46.
- the processing liquid drying processing drum 46 conveys the paper P by gripping the leading end of the paper P with the gripper 46 ⁇ / b> A and rotating. At this time, the treatment liquid drying treatment drum 46 conveys the surface of the paper P (the surface coated with the treatment liquid) inward.
- the paper P is dried by blowing hot air from the processing liquid drying processing unit 50 installed inside the processing liquid drying processing drum 46. That is, the solvent component in the treatment liquid is removed. As a result, an ink aggregation layer is formed on the surface of the paper P.
- the image recording unit 18 ejects ink of each color of C, M, Y, and K on the recording surface of the paper P, and draws a color image on the recording surface of the paper P (an example of an image recording process).
- the image recording unit 18 mainly presses the image recording drum 52 that conveys the paper P and the paper P that is conveyed by the image recording drum 52, so that the paper P is brought into close contact with the peripheral surface of the image recording drum 52.
- a roller 54 a head unit 56 that records an image by ejecting ink droplets of C, M, Y, and K colors on the paper P; and an inline sensor 58 that serves as an image reading unit that reads the image recorded on the paper P And a mist filter 60 for capturing ink mist and a drum cooling unit 62 for cooling the image recording drum 52.
- the image recording drum 52 functions as a recording medium holding unit that holds a sheet P as a recording medium, and also functions as a conveying unit that conveys the sheet P as a recording medium.
- the image recording drum 52 receives the paper P from the processing liquid drying processing drum 46 of the processing liquid drying processing unit 16 and conveys the paper P to the ink drying processing unit 20.
- the image recording drum 52 is formed in a cylindrical shape, and is rotated by being driven by a motor (not shown) as a driving unit.
- a gripper is provided on the outer peripheral surface of the image recording drum 52, and the leading edge of the paper P is gripped by the gripper.
- the image recording drum 52 conveys the paper P to the ink drying processing unit 20 while winding the paper P around the peripheral surface by gripping and rotating the leading edge of the paper P with the gripper. Further, the image recording drum 52 has a large number of suction holes (not shown) formed in a predetermined pattern on the peripheral surface thereof. The paper P wound around the peripheral surface of the image recording drum 52 is conveyed while being sucked and held on the peripheral surface of the image recording drum 52 by being sucked from the suction holes. Thereby, the paper P can be conveyed with high flatness.
- the paper pressing roller 54 is disposed in the vicinity of the paper receiving position of the image recording drum 52 (the position where the paper P is received from the processing liquid drying processing drum 46).
- the sheet pressing roller 54 is constituted by a rubber roller, and is installed in press contact with the peripheral surface of the image recording drum 52.
- the paper P transferred from the processing liquid drying processing drum 46 to the image recording drum 52 is nipped by passing through the paper pressing roller 54 and is brought into close contact with the peripheral surface of the image recording drum 52.
- the head unit 56 includes an inkjet head 200C that ejects cyan (C) ink droplets by the inkjet method, an inkjet head 200M that ejects magenta (M) ink droplets by the inkjet method, and inkjets yellow (Y) ink droplets.
- An inkjet head 200Y that discharges by a method and an inkjet head 200K that discharges black (K) ink droplets by an inkjet method are provided.
- Each of the inkjet heads 200C, 200M, 200Y, and 200K is disposed at a constant interval along the conveyance path of the paper P by the image recording drum 52.
- Each inkjet head 200C, 200M, 200Y and 200K is constituted by a line head and is formed with a length corresponding to the maximum paper width.
- Each of the inkjet heads 200 ⁇ / b> C, 200 ⁇ / b> M, 200 ⁇ / b> Y, and 200 ⁇ / b> K is disposed such that the nozzle surface (surface on which the nozzles are arranged) faces the peripheral surface of the image recording drum 52.
- Each of the inkjet heads 200C, 200M, 200Y, and 200K ejects ink droplets from the nozzles formed on the nozzle surface toward the image recording drum 52, whereby an image is printed on the paper P conveyed by the image recording drum 52. Record.
- inkjet heads 200C, 200M, 200Y, and 200K The configuration of the inkjet heads 200C, 200M, 200Y, and 200K will be described in detail later.
- the in-line sensor 58 functions as an image reading unit that reads an image recorded on the paper P.
- the in-line sensor 58 is installed on the downstream side of the rearmost inkjet head 200K with respect to the conveyance direction of the paper P by the image recording drum 52, and reads an image recorded by the inkjet heads 200C, 200M, 200Y, and 200K.
- the in-line sensor 58 is constituted by, for example, a line scanner, and reads an image recorded by the inkjet heads 200C, 200M, 200Y, and 200K from the sheet P conveyed by the image recording drum 52.
- a contact prevention plate 59 is installed in the vicinity of the inline sensor 58 on the downstream side of the inline sensor 58.
- the contact prevention plate 59 prevents the paper P from coming into contact with the in-line sensor 58 when the paper P is lifted due to a conveyance failure or the like.
- the mist filter 60 is disposed between the rearmost inkjet head 200K and the inline sensor 58, and sucks air around the image recording drum 52 to capture the ink mist. In this way, by sucking the air around the image recording drum 52 and capturing the ink mist, the ink mist can be prevented from entering the in-line sensor 58 and reading errors can be prevented.
- the drum cooling unit 62 cools the image recording drum 52 by blowing cold air onto the image recording drum 52.
- the drum cooling unit 62 mainly includes an air conditioner (not shown) and a duct 62 ⁇ / b> A that blows cool air supplied from the air conditioner onto the peripheral surface of the image recording drum 52.
- the duct 62 ⁇ / b> A cools the image recording drum 52 by blowing cool air to an area other than the conveyance area of the paper P against the image recording drum 52.
- the duct 62A blows cold air to the area of the lower half of the image recording drum 52 to record the image.
- the drum 52 is cooled.
- the air outlet of the duct 62 ⁇ / b> A is formed in an arc shape so as to cover substantially the lower half of the image recording drum 52, and cold air is blown to the region of the substantially lower half of the image recording drum 52. Has been.
- the temperature at which the image recording drum 52 is cooled is determined by the relationship with the temperatures of the inkjet heads 200C, 200M, 200Y, and 200K (particularly the temperature of the nozzle surface), and is higher than the temperatures of the inkjet heads 200C, 200M, 200Y, and 200K. It is cooled to a low temperature. Thereby, it is possible to prevent dew condensation from occurring in the inkjet heads 200C, 200M, 200Y and 200K. That is, by making the temperature of the image recording drum 52 lower than that of the inkjet heads 200C, 200M, 200Y, and 200K, condensation can be induced on the image recording drum side, and the condensation that occurs on the inkjet heads 200C, 200M, 200Y, and 200K. (Especially, condensation on the nozzle surface) can be prevented.
- the image recording unit 18 is configured as described above.
- the paper P delivered from the processing liquid drying processing drum 46 of the processing liquid drying processing unit 16 is received by the image recording drum 52.
- the image recording drum 52 conveys the paper P by gripping the leading edge of the paper P with a gripper and rotating.
- the paper P delivered to the image recording drum 52 is first brought into close contact with the peripheral surface of the image recording drum 52 by passing through the paper pressing roller 54. At the same time, it is sucked from the suction holes of the image recording drum 52 and sucked and held on the outer peripheral surface of the image recording drum 52.
- the paper P is transported in this state and passes through the inkjet heads 200C, 200M, 200Y, and 200K.
- ink droplets of the respective colors C, M, Y, and K are ejected from the ink jet heads 200C, 200M, 200Y, and 200K onto the surface, and a color image is drawn on the surface. Since the ink aggregation layer is formed on the surface of the paper P, a high-quality image can be recorded without causing feathering or bleeding.
- the paper P on which an image is recorded by the inkjet heads 200C, 200M, 200Y and 200K then passes through the inline sensor 58. Then, an image recorded on the surface when the in-line sensor 58 passes is read. Reading of the recorded image is performed as necessary, and an inspection such as ejection failure is performed from the read image. When reading is performed, reading is performed in a state of being held by suction on the image recording drum 52, so that reading can be performed with high accuracy. Further, since reading is performed immediately after image recording, for example, abnormalities such as ejection failure can be detected immediately, and it is possible to respond quickly. As a result, useless recording can be prevented and the occurrence of waste paper can be minimized.
- the sheet P is delivered to the ink drying processing unit 20 after the suction is released.
- the ink drying processing unit 20 performs a drying process on the paper P after image recording, and removes a liquid component (water) remaining on the surface of the paper P.
- the ink drying processing unit 20 is transported by the chain gripper 64 that transports the paper P on which an image is recorded, the back tension applying mechanism 66 that applies back tension to the paper P transported by the chain gripper 64, and the chain gripper 64.
- the chain gripper 64 is a paper transport unit commonly used in the ink drying processing unit 20 and the paper discharge unit 24, receives the paper P delivered from the image recording unit 18, and transports it to the paper discharge unit 24. (An example of a conveyance process).
- the chain gripper 64 mainly includes a first sprocket 64A installed in the vicinity of the image recording drum 52, a second sprocket 64B installed in the paper discharge unit 24, a first sprocket 64A, and a second sprocket 64B.
- the endless chain 64C is wound around, a plurality of chain guides (not shown) for guiding the running of the chain 64C, and a plurality of grippers 64D attached to the chain 64C at a constant interval.
- the first sprocket 64 ⁇ / b> A, the second sprocket 64 ⁇ / b> B, the chain 64 ⁇ / b> C, and the chain guide are each configured as a pair, and are disposed on both sides of the paper P in the width direction.
- the gripper 64D is installed over a chain 64C provided as a pair.
- the first sprocket 64A is installed close to the image recording drum 52 so that the paper P delivered from the image recording drum 52 can be received by the gripper 64D.
- the first sprocket 64A is rotatably supported by a bearing (not shown) and is connected to a motor (not shown).
- the chain 64C wound around the first sprocket 64A and the second sprocket 64B travels by driving this motor.
- the second sprocket 64B is installed in the paper discharge unit 24 so that the paper P received from the image recording drum 52 can be collected by the paper discharge unit 24. That is, the installation position of the second sprocket 64B is the end of the paper P conveyance path by the chain gripper 64.
- the second sprocket 64B is pivotally supported by a bearing (not shown) and is rotatably provided.
- the chain 64C is formed in an endless shape and is wound around the first sprocket 64A and the second sprocket 64B.
- the chain guide is arranged at a predetermined position and guides the chain 64C to travel along a predetermined route. That is, the paper P is guided so as to travel along a predetermined transport path.
- the second sprocket 64B is disposed at a position higher than the first sprocket 64A. For this reason, a travel route in which the chain 64C is inclined in the middle is formed. Specifically, it includes a first horizontal transfer path 70A, an inclined transfer path 70B, and a second horizontal transfer path 70C.
- the first horizontal conveyance path 70A is set to the same height as the first sprocket 64A, and the chain 64C wound around the first sprocket 64A is set to run horizontally.
- the second horizontal conveyance path 70C is set to the same height as the second sprocket 64B, and the chain 64C wound around the second sprocket 64B is set to travel horizontally.
- the inclined conveyance path 70B is set between the first horizontal conveyance path 70A and the second horizontal conveyance path 70C, and is set so as to connect between the first horizontal conveyance path 70A and the second horizontal conveyance path 70C.
- the chain guide is disposed so as to form the first horizontal conveyance path 70A, the inclined conveyance path 70B, and the second horizontal conveyance path 70C. Specifically, it is disposed at at least a junction point between the first horizontal conveyance path 70A and the inclined conveyance path 70B and a junction point between the inclined conveyance path 70B and the second horizontal conveyance path 70C.
- a plurality of grippers 64D are attached to the chain 64C at a constant interval.
- the mounting interval of the gripper 64D is set in accordance with the receiving interval of the paper P from the image recording drum 52. That is, the sheet P sequentially delivered from the image recording drum 52 is set in accordance with the reception interval of the sheet P from the image recording drum 52 so that the sheet P can be received from the image recording drum 52 at the same timing.
- the chain gripper 64 is configured as described above. As described above, when a motor (not shown) connected to the first sprocket 64A is driven, the chain 64C travels. The chain 64C travels at the same speed as the peripheral speed of the image recording drum 52. The timing is adjusted so that the paper P delivered from the image recording drum 52 can be received by each gripper 64D.
- the back tension applying mechanism 66 applies a back tension to the paper P that is conveyed while its tip is gripped by the chain gripper 64.
- the back tension applying mechanism 66 mainly includes a guide plate 72 and a suction mechanism 74 that sucks air from suction holes (not shown) formed in the guide plate 72.
- the guide plate 72 is constituted by a hollow box plate having a width corresponding to the paper width.
- the guide plate 72 (an example of guide means) supports the paper P conveyed by the chain gripper 64 from the opposite side of the recording surface of the paper P with a guide surface (a surface facing the chain 64C). That is, the paper P conveyed by the chain gripper 64 is supported by the guide surface of the guide plate 72 on the back surface (the surface opposite to the recording surface), and is conveyed while sliding on the guide surface.
- a large number of suction holes are formed in a predetermined pattern on the guide surface (upper surface) of the guide plate 72.
- the guide plate 72 is formed of a hollow box plate.
- a suction mechanism 74 (an example of a suction unit) sucks the hollow portion (inside) of the guide plate 72. As a result, air is sucked from the suction holes formed in the guide surface.
- the guide plate 72 since the guide plate 72 is disposed along the chain 64C that travels along the first horizontal conveyance path 70A and the inclined conveyance path 70B, the guide plate 72 conveys the first horizontal conveyance path 70A and the inclined conveyance path 70B. While it is being applied, back tension is applied.
- the ink drying processing unit 68 (an example of a drying unit) is installed inside the chain gripper 64 (particularly a part constituting the first horizontal transport path 70A), and is for the paper P transported through the first horizontal transport path 70A. Apply drying treatment.
- the ink drying processing unit 68 irradiates the surface of the paper P transported through the first horizontal transport path 70A with infrared light, blows hot air, and performs a drying process.
- the sheet P received from the image recording unit 18 is set so that it can be dried while being conveyed through the first horizontal conveyance path 70A. Therefore, the length of the first horizontal conveyance path 70A is also set in consideration of the capability of the ink drying processing unit 68.
- the humidity of the ink drying process part 20 rises by performing a drying process. Since the drying process cannot be performed efficiently when the humidity increases, the ink drying processing unit 20 is provided with an exhaust unit together with the ink drying processing unit 68 to forcibly exhaust the humid air generated by the drying process.
- the exhaust unit may be configured such that an exhaust duct is installed in the ink drying processing unit 20 and the air of the ink drying processing unit 20 is exhausted by the exhaust duct.
- the ink drying processing unit 20 supplies hot water of 60 ° C. to a water cooler (not shown) disposed on the back surface of the guide plate 72 to maintain (temperature control) the surface temperature of the guide plate 72 at 60 ° C. It has.
- This constant temperature chiller 76 (an example of temperature control means) can prevent overheating and condensation of the guide plate 72.
- the ink drying processing unit 20 is configured as described above.
- the paper P delivered from the image recording drum 52 of the image recording unit 18 is received by the chain gripper 64.
- the chain gripper 64 grips the leading end of the paper P with the gripper 64 ⁇ / b> D and transports the paper P along the planar guide plate 72.
- the paper P delivered to the chain gripper 64 is first transported along the first horizontal transport path 70A.
- the paper P is dried by an ink drying processing unit 68 installed inside the chain gripper 64. That is, the surface (recording surface) is irradiated with infrared light, and hot air is blown thereon to perform a drying process.
- the paper P is dried while the back tension is applied by the back tension applying mechanism 66. As a result, the drying process can be performed while suppressing deformation of the paper P.
- the paper discharge unit 24 discharges and collects the paper P on which a series of image recording processing has been performed.
- the paper discharge unit 24 mainly includes a chain gripper 64 that conveys the paper P and a paper discharge stand 78 that stacks and collects the paper P.
- the chain gripper 64 opens the paper P on the paper discharge table 78 and stacks the paper P on the paper discharge table 78.
- the paper discharge stand 78 stacks and collects the paper P released from the chain gripper 64.
- the paper discharge stand 78 is provided with a paper pad (a front paper pad, a rear paper pad, a horizontal paper pad, etc.) so that the sheets P are stacked in an orderly manner (not shown).
- the paper discharge stand 78 is provided so as to be lifted and lowered by a paper discharge stand lifting device (not shown).
- the discharge platform lifting device is controlled in conjunction with the increase / decrease of the sheets P stacked on the sheet discharge platform 78 so that the uppermost sheet P is always positioned at a certain height.
- the paper board 78 is moved up and down.
- the inkjet recording apparatus 10 includes a system controller 100, a communication unit 102, an image memory 104, a conveyance control unit 110, a paper feed control unit 112, a processing liquid application control unit 114, a processing liquid drying control unit 116, An image recording control unit 118, an ink drying control unit 120, a paper discharge control unit 124, an operation unit 130, a display unit 132, a nonvolatile memory 134, and the like are provided.
- the system controller 100 functions as a control unit that performs overall control of each unit of the inkjet recording apparatus 10 and also functions as a calculation unit that performs various calculation processes.
- the system controller 100 operates according to a predetermined control program.
- a ROM (Read Only Memory) (not shown) of the system controller 100 stores a control program executed by the system controller 100 and various data necessary for control.
- the communication unit 102 includes a required communication interface, and transmits / receives data to / from a host computer connected to the communication interface.
- the image memory 104 functions as a temporary storage unit for various data including image data, and data is read and written through the system controller 100. Image data captured from the host computer via the communication unit 102 is stored in the image memory 104.
- the conveyance control unit 110 controls the conveyance system of the paper P in the inkjet recording apparatus 10. That is, the tape feeder 36A, the front pad 38, and the paper feed drum 40 in the paper supply unit 12 are controlled to be driven, and the processing liquid application drum 42 in the processing liquid application unit 14 and the processing liquid drying process in the processing liquid drying processing unit 16 are performed.
- the driving of the image recording drum 52 in the drum 46 and the image recording unit 18 is controlled.
- the suction mechanism 74 is controlled to determine a suction stop position to be described later.
- the transport control unit 110 controls the transport system in accordance with a command from the system controller 100 so that the paper P is transported without delay from the paper feed unit 12 to the paper discharge unit 24.
- the paper feed control unit 112 controls the paper feed unit 12 in accordance with a command from the system controller 100. More specifically, the driving of the soccer device 32 and the paper feed table raising / lowering mechanism is controlled so that the sheets P stacked on the paper feed table 30 are sequentially fed one by one without overlapping.
- the processing liquid application control unit 114 controls the processing liquid application unit 14 in accordance with a command from the system controller 100. Specifically, the drive of the treatment liquid application device 44 is controlled so that the treatment liquid is applied to the paper P conveyed by the treatment liquid application drum 42.
- the processing liquid drying control unit 116 controls the processing liquid drying processing unit 16 in accordance with a command from the system controller 100. Specifically, the drive of the processing liquid drying processing unit 50 is controlled so that the paper P conveyed by the processing liquid drying processing drum 46 is dried.
- the image recording control unit 118 controls the image recording unit 18 in accordance with a command from the system controller 100. Specifically, the drive of the inkjet heads 200C, 200M, 200Y and 200K is controlled so that a predetermined image is recorded on the paper P conveyed by the image recording drum 52. Further, the operation of the inline sensor 58 is controlled so that the recorded image is read.
- the ink drying control unit 120 controls the ink drying processing unit 20 in accordance with a command from the system controller 100. Specifically, the drive of the ink drying processing unit 68 is controlled so that hot air is blown to the paper P conveyed by the chain gripper 64.
- the paper discharge control unit 124 controls the paper discharge unit 24 according to a command from the system controller 100. Specifically, it controls the drive of the paper discharge table lifting mechanism and the like so that the paper P is stacked on the paper discharge table 78.
- the operation unit 130 includes necessary operation means (for example, operation buttons, a keyboard, a touch panel, and the like), and outputs operation information input from the operation means to the system controller 100.
- the system controller 100 executes various processes in accordance with operation information input from the operation unit 130.
- the display unit 132 includes a display device such as an LCD (Liquid Crystal Display) panel, and displays required information on the display device in response to a command from the system controller 100.
- a display device such as an LCD (Liquid Crystal Display) panel
- the non-volatile memory 134 is composed of, for example, an EEPROM (electrically erasable programmable ⁇ read only memory) or the like, and records various data necessary for control, various setting information, and the like.
- EEPROM electrically erasable programmable ⁇ read only memory
- the image data to be recorded on the paper is taken into the inkjet recording apparatus 10 from the host computer via the communication unit 102.
- the captured image data is stored in the image memory 104.
- the system controller 100 performs the necessary signal processing on the image data stored in the image memory 104 to generate dot data. Then, the drive of each of the inkjet heads 200C, 200M, 200Y, and 200K of the image recording unit 18 is controlled according to the generated dot data, and the image represented by the image data is recorded on the paper.
- the dot data is generally generated by performing color conversion processing and halftone processing on image data.
- ink amount data of each color of ink using image data expressed by sRGB (standard Red Green Blue) or the like is used in the inkjet recording apparatus 10.
- the ink amount data is converted into C, M, Y, and K ink amount data.
- the halftone process is a process of converting the ink amount data of each color generated by the color conversion process into dot data of each color by a process such as error diffusion.
- the system controller 100 performs color conversion processing and halftone processing on the image data to generate dot data for each color. Then, according to the generated dot data of each color, the drive of the corresponding ink jet head is controlled to record the image represented by the image data on the paper.
- the system controller 100 draws an image of a predetermined test pattern on the paper P when the head modules constituting the inkjet heads 200C, 200M, 200Y, and 200K are positioned, and the drawn image is displayed on the inline sensor 58. Then, the read image is processed to calculate the correction amount of the mounting position of each head module.
- the inkjet recording apparatus 10 includes a maintenance unit adjacent to the image recording unit 18.
- the maintenance unit performs maintenance of the inkjet heads 200C, 200M, 200Y, and 200K.
- the maintenance unit includes a cap that covers the nozzle surfaces of the inkjet heads 200C, 200M, 200Y, and 200K, a cleaning device that cleans the nozzle surfaces, and the like.
- the head unit 56 is movably provided between the image recording unit 18 and the maintenance unit by a head unit transfer mechanism, and maintenance processing is performed by the maintenance unit as necessary. For example, when the operation is stopped for a long time, the ink jet heads 200C, 200M, 200Y and 200K move to the maintenance unit, and the nozzle surface is covered with the cap.
- the nozzle surfaces of the inkjet heads 200C, 200M, 200Y, and 200K become dirty as a result of use, the nozzle surfaces are periodically cleaned by a cleaning device.
- the cleaning of the nozzle surface is performed, for example, by wiping the nozzle surface with a blade or a web.
- the ink drying processing unit 68 includes ten IR (infrared) units 68H (an example of a heating unit) and seven hot air units 68F (an example of a heating unit) along the conveyance direction of the paper P. ).
- the IR unit 68H uses a carbon heater CRS4000 / 1000G (maximum output 4000 [W]) (an example of an infrared heater) manufactured by Heraeus.
- the IR unit 68H is configured to be able to change the energization duty from 0% to 100%, and the heating amount is controlled by a control signal from the ink drying control unit 120.
- the warm air unit 68 ⁇ / b> F has a blown air amount of 2 [m 3 / min] and an air temperature of 60 ° C., and blows air toward the guide plate 72.
- each of the seven suction mechanisms 74 is configured to be able to switch the presence or absence of suction, and the presence or absence of suction is controlled by a control signal from the ink drying control unit 120.
- Paper I “OK top coat +”, basis weight 104 [g / m 2 ] (Oji Paper)
- Paper II “OK top coat +”, basis weight 127 [g / m 2 ] (Oji Paper)
- Paper III “I Best W”, basis weight 310 [g / m 2 ] (Nippon Paper Industries)
- the basis weight is the weight per unit area of one sheet of paper.
- Papers I, II, and III were preconditioned for 1 day (left in the environment) in a laboratory environment (temperature 23 [° C.], relative humidity 50 [% RH]).
- the amount of water contained in each sheet is determined by punching out (cutting out) the measured portion of each sheet to a size of 3 [cm] x 3 [cm], and using a trace moisture measuring device CA-200 (manufactured by Mitsubishi Chemical Analytech Co., Ltd.). And measured. Thereafter, the measured moisture content [g] was divided by the punched area to calculate the moisture content [g / m 2 ] per unit area.
- the water content after temperature control of each paper is shown below.
- the ink droplet density, ink formulation, etc. are as follows.
- the heat insulating material 152 is placed on the test bench 150, and the paper P on which ink is deposited on the heat insulating material 152 is placed on the surface where the ink is deposited (on the side opposite to the heat insulating material 152). ). As described above, the paper P is punched with a size of 3 [cm] ⁇ 3 [cm].
- an IR lamp 154 and a hot air unit 156 were arranged at a position 15 cm away from the droplet ejection surface of the paper P.
- the IR lamp 154 two carbon heaters CRS1000 / 300G (maximum output 1000 [W]) manufactured by Heraeus Co. were used.
- the warm air unit 156 used was a blown air speed of 10 [m / s], a blowout nozzle of 5 [cm] ⁇ 1 [cm], and a blown air temperature of 70 [° C.].
- the paper was heated for a predetermined time, the paper was removed from the experimental table 150, and the moisture content of the paper was measured.
- a value obtained by subtracting the moisture content of the paper before heating (after temperature control) from the measured moisture content of the paper is defined as the residual water content.
- the remaining water amount with respect to the heating time of each paper is shown in FIG. 5 and FIG.
- the condition that the residual water content is a negative value indicates that the water content after drying is lower than the water content before droplet ejection.
- FIG. 7A is a diagram illustrating the ink droplet ejection position on the paper P, and is a diagram of the paper P viewed from the back surface of the droplet ejection surface.
- the gray portion in FIG. 7A is the ink ejection position on the back side.
- FIG. 7B after the paper P on which ink has been deposited at the position shown in FIG. 7A is dried, an observation light is irradiated in the horizontal direction from the back of the droplet ejection surface of the paper P, It is a photograph taken with a camera.
- the paper P is swelled.
- the waviness is a state in which the paper fibers are expanded by the moisture of the ink that has been ejected onto the paper P and locally uneven.
- FIG. 7C after drying the paper P on which ink has been deposited at the position shown in FIG. It is a photograph taken with a camera.
- the paper P is wrinkled.
- a wrinkle is an unevenness that is finer than waviness, and is a state in which a small deformation caused by the moisture of the ink is solidified.
- the above paper I, II and III were used as the types of paper P.
- the paper size is 750 [mm] ⁇ 532 [mm].
- stripes were printed as ink ejection conditions (see FIG. 7A).
- the paper P after printing is transported by the chain gripper 64 so that the gripper 64D of the chain gripper 64 grips the long side of the paper P and the short side of the paper P is parallel to the transport direction of the paper P.
- the paper grain of the paper P is a horizontal grain. That is, the grain of the paper P is in a direction parallel to the long side.
- the energization duty of the IR unit 68H is such that when the paper passes through the ink drying processing unit 20, the paper P has an appropriate residual water amount, that is, a residual water amount of 0.7 [g / m 2 ] or less that is dry to the touch.
- Different set values (heating amounts) were set according to the basis weight of P. Specifically, 30% is set for the paper I, 40% for the paper II, and 80% for the paper III.
- the energization duty of the IR unit 68H can be controlled by the ink drying control unit 120.
- the ink drying processing unit 20 sucks the paper P by the suction mechanism 74 disposed on the upstream side among the seven suction mechanisms 74, and does not suck the paper P by the suction mechanism 74 disposed on the downstream side.
- the paper P is conveyed.
- the boundary between the upstream side and the downstream side, that is, the suction stop position is set at each of the R1, R2,..., R6 positions shown in FIG. 3, and the waviness and wrinkles generated on the paper P in each case. was visually evaluated. The classification of evaluation is shown below.
- Fig. 8 shows the evaluation results of the occurrence of waviness and wrinkles at each suction stop position on each sheet. Note that the “remaining water amount at the suction stop position” in FIG. 8 stops the IR unit 68H and the hot air unit 68F located downstream from the suction stop position in order to eliminate the influence of drying downstream from the suction stop position. The sample was transported in the state after measurement, and then measured.
- the paper I has a strong swell at the suction stop position R1, which causes a problem in quality. Further, although there is a slight swell at the suction stop position R2, there is no problem in quality. When the suction stop position is after the position R3, no swell occurs. In addition, wrinkles do not occur before the suction stop position R3, but there are slight wrinkles when the suction stop position is R4, and wrinkles become stronger after the R5 position.
- the residual water amount when reaching the position of R6 is 0.5 [g / m 2 ] and is 0.7 [g / m 2 ] or less that is dry to the touch, up to the position of R6 It can be seen that the paper P is sufficiently dried by being dried while being conveyed.
- the occurrence of undulation and wrinkles can be prevented by setting the suction stop position to the position R2, the position R3, or the position R4.
- the remaining water amount at the suction stop position is 3.0 [g / m 2 ] at the position R2, 1.5 [g / m 2 ] at the position R3, and 1.0 [g / m 2 at the position R4. m 2 ].
- the paper I is conveyed while being sucked as a suction area by the suction mechanism 74 and dried. Thereafter, the paper I is dried while being conveyed as a non-suction area, thereby preventing undulations and wrinkles.
- the paper II has a strong swell at the position where the suction stop position is R1, which causes a quality problem. Further, although there is a slight swell at the suction stop position R2, there is no problem in quality. No undulation occurs when the suction stop position is after the position R3. Further, the wrinkle does not occur when the suction stop position is before the position of R3, but there is a slight wrinkle when the suction stop position is the position of R4, and the wrinkle becomes strong after the position of R5.
- the residual water amount at the time of reaching the position of R6 is 0.4 [g / m 2 ] and is 0.7 [g / m 2 ] or less that is dry to the touch, up to the position of R6 It can be seen that the paper P is sufficiently dried by being dried while being conveyed.
- the amount of residual water at the suction stop position is 3.0 [g / m 2 ] at the position R2, 1.4 [g / m 2 ] at the position R3, and 1.0 [g / m 2 at the position R4. m 2 ].
- the paper II is also conveyed while being sucked as a suction area by the suction mechanism 74 until the remaining water amount is 1.0 [g / m 2 ] or more and 3.0 [g / m 2 ] or less. After drying, the sheet II is dried while being conveyed as a non-suction area, thereby preventing undulations and wrinkles.
- the sheet I is conveyed while being sucked as a suction area for sucking the sheet by the suction mechanism 74 until the remaining water amount becomes 1.0 [g / m 2 ] or more and 3.0 [g / m 2 ] or less. It was found that undulations and wrinkles are prevented by drying the sheet I as a non-suction area and then drying the sheet I as a non-suction area.
- the suction stop position (an example of the first position) is fixed at, for example, the position R3, and the upstream side of the transport path of the paper P from the position R3 (image recording).
- the suction unit 74 sucks the paper P by the suction mechanism 74 (an example of a suction process), and does not suck the paper P downstream of the transport path of the paper P from the R3 position (the paper discharge unit 24 side). A non-suction area.
- the sheet P is guided by the guide surface of the guide plate 72 (an example of the guide process) and conveyed (an example of the conveyance process).
- Heating is performed by adjusting the energization duty of the IR unit 68H according to the basis weight of the sheet P.
- the paper P is dried (an example of a drying process).
- the remaining water amount of the paper P when passing through the position of R3 may be set to 1.0 [g / m 2 ] or more and 3.0 [g / m 2 ] or less.
- the energization duty may be fixed for each sheet, and the position where the remaining water amount of the sheet P is 1.0 [g / m 2 ] or more and 3.0 [g / m 2 ] or less may be set as the suction stop position.
- the position where the remaining water amount of the paper P is 1.0 [g / m 2 ] or more and 3.0 [g / m 2 ] or less is considered to be different depending on the basis weight of the paper P.
- the suction stop position may be changed according to the basis weight.
- suction stop positions can be realized by controlling the presence or absence of suction by each suction mechanism 74 by the transport control unit 110.
- an aqueous ink is used for the paper P, an image is recorded by the ink jet heads 200C, 200M, 200Y, and 200K, and is transported along the transport path by the chain gripper 64 and the IR unit 68H.
- the paper P is dried by being heated by the wind unit 68F, and the upstream side of the suction stop position in the guide plate 72 is set as a suction area for suction by the suction mechanism 74, and the downstream side of the suction stop position is not sucked.
- the suction area was set to a position where the remaining water amount of the paper P was 1.0 [g / m 2 ] or more and 3.0 [g / m 2 ] or less (an example of an ink jet recording method).
- the “non-suction region” is substantially the same as those other than the mode in which the suction mechanism 74 is not operated and suction is not performed at all and the guide plate 72 is not provided with a suction hole.
- the mode which produces the effect of this is included.
- an area in which a small amount of adsorption (adsorption pressure of 30 [Pa] or less) that does not fix the paper P is included in the “non-attraction area” of the present embodiment.
- the paper P used in the present embodiment is a paper on which undulations and wrinkles are generated when printing is performed by an inkjet method using water-based ink.
- general-purpose printing paper used in general offset printing so-called high-quality paper, coated paper, paper such as art paper, which is mainly cellulose
- coated paper in which a coating material is applied to the surface of high-quality paper or neutral paper that has not been surface-treated to provide a coating layer can also be used.
- the present embodiment works effectively when printing on general-purpose paper using water-based ink by an inkjet method.
- an example of the composition of the water-based ink used in this embodiment will be described.
- the water-based ink used in the present embodiment includes at least a color material, resin particles, and water.
- the water-based ink used in the present embodiment can be configured using a water-soluble organic solvent, a dispersant, a surfactant, and other components as necessary.
- the water-based ink contains at least one color material.
- the coloring material known dyes, pigments and the like can be used without particular limitation. Among these, from the viewpoint of ink colorability, a color material that is almost insoluble or hardly soluble in water is preferable. Specific examples include various pigments, disperse dyes, oil-soluble dyes, dyes forming J aggregates, and the like, and pigments are more preferable.
- the water-insoluble pigment itself or the pigment itself surface-treated with a dispersant can be used as the color material.
- the pigment is not particularly limited in its type, and conventionally known organic and inorganic pigments can be used.
- polycyclic pigments such as azo lakes, azo pigments, phthalocyanine pigments, perylene and perinone pigments, anthraquinone pigments, quinacridone pigments, dioxazine pigments, diketopyrrolopyrrole pigments, thioindigo pigments, isoindolinone pigments, quinophthaloni pigments, basic Examples include dye lakes such as dye-type lakes and acid dye-type lakes, organic pigments such as nitro pigments, nitroso pigments, aniline black, and daylight fluorescent pigments, and inorganic pigments such as titanium oxide, iron oxide, and carbon black.
- the water-based ink used in the present embodiment includes at least one resin particle having a minimum film-forming temperature (MFT0) of 60 [° C.] or higher when an aqueous dispersion is used. Resin particles having an MFT0 of less than 60 [° C.] may be included, but if the MFT0 of all the resin particles in the water-based ink is less than 60 [° C], the image remains sticky after recording, and paper or the like is left on the image portion. Blocking occurs when stacking.
- the MFT0 is preferably 80 to 150 [° C.], more preferably 100 to 130 [° C.]. When MFT0 is less than 150 ° C., the amount of heat at the time of heat fixing may be small, which is preferable from the viewpoint of energy saving of fixing.
- the resin particles include thermoplastic, thermosetting or heat-modified acrylic, epoxy, polyurethane, polyether, polyamide, unsaturated polyester, phenol, silicone, or fluorine resin, Polyvinyl resins such as vinyl chloride, vinyl acetate, polyvinyl alcohol, or polyvinyl butyral, polyester resins such as alkyd resins and phthalic resins, melamine resins, melamine formaldehyde resins, aminoalkyd cocondensation resins, urea resins, urea resins, etc. Examples thereof include resin particles having an anionic group such as an amino material, a copolymer or a mixture thereof.
- the water-based ink used in the present embodiment preferably contains a water-soluble organic solvent for the purpose of preventing drying, promoting water immersion, and adjusting the viscosity.
- a water-soluble organic solvent is preferable in that the MTF of the resin particles of the ink can be kept low, and the discharge properties can be kept good.
- other organic solvents may be contained for the purpose of preventing drying, promoting penetration, adjusting viscosity, and the like.
- nozzle clogging that may occur due to drying of the ink at the ink discharge port can be effectively prevented when recording an image by discharging the ink by the ink jet method.
- a water-soluble organic solvent having a vapor pressure lower than that of water is preferable.
- the water-soluble organic solvent suitable for preventing drying include ethylene glycol, propylene glycol, diethylene glycol, polyethylene glycol, thiodiglycol, dithiodiglycol, 2-methyl-1,3-propanediol, 1,2 , 6-hexanetriol, acetylene glycol derivatives, glycerin, polyhydric alcohols typified by trimethylolpropane, 2-pyrrolidone, N-methyl-2-pyrrolidone, 1,3-dimethyl-2-imidazolidinone, N -Heterocycles such as ethylmorpholine, sulfur-containing compounds such as sulfolane, dimethyl sulfoxide and 3-sulfolene, polyfunctional compounds such as diacetone alcohol and diethanolamine, urea derivatives and the like.
- polyhydric alcohols such as glycerin and
- an organic solvent may be used for the purpose of allowing the ink to permeate the recording medium better.
- organic solvents suitable for promoting penetration include alcohols such as ethanol, isopropanol, butanol and 1,2-hexanediol, sodium lauryl sulfate, sodium oleate, and nonionic surfactants.
- the water-soluble organic solvent can be used for adjusting the viscosity.
- water-soluble organic solvents that can be used to adjust the viscosity include alcohols (eg, methanol, ethanol, propanol, etc.), amines (eg, ethanolamine, diethanolamine, triethanolamine, ethylenediamine, diethylenetriamine, etc.) And other polar solvents (for example, formamide, N, N-dimethylformamide, N, N-dimethylacetamide, dimethyl sulfoxide, sulfolane, 2-pyrrolidone, acetonitrile, acetone, etc.).
- alcohols eg, methanol, ethanol, propanol, etc.
- amines eg, ethanolamine, diethanolamine, triethanolamine, ethylenediamine, diethylenetriamine, etc.
- other polar solvents for example, formamide, N, N-dimethylformamide, N, N-dimethylacetamide, dimethyl
- the water-based ink used in the present embodiment contains water, but the amount of water is not particularly limited.
- a preferable content of water is 10 to 99 [mass%], more preferably 30 to 80 [mass%], and still more preferably 50 to 70 [mass%].
- the water-based ink used in the present embodiment can contain other additives as necessary in addition to the above-described components.
- Other additives include, for example, antifading agents, emulsion stabilizers, penetration enhancers, ultraviolet absorbers, antiseptics, antifungal agents, pH adjusters, surface tension adjusters, antifoaming agents, viscosity adjusters, and dispersions.
- Well-known additives such as an agent, a dispersion stabilizer, a rust inhibitor, and a chelating agent can be used. These various additives may be added directly after the ink is prepared, or may be added when the ink is prepared.
- the surface tension of the ink is preferably 20 to 60 [mN / m], more preferably 20 to 45 [mN / m], and further preferably 25 to 40 [mN / m].
- a range of 20 to 60 [mN / m] is preferable, and a range of 30 to 50 [mN / m] is more preferable.
- the surface tension of the ink is measured under conditions of 25 [° C.] by a plate method using an Automatic Surface Tensiometer CBVP-Z (manufactured by Kyowa Interface Science Co., Ltd.).
- the viscosity of the ink is preferably in the range of 1 to 30 [mPa ⁇ s] from the viewpoint of ejection stability and agglomeration speed when in contact with the treatment liquid, when applied by ink jetting.
- the range of [mPa ⁇ s] is more preferable, the range of 2 to 15 [mPa ⁇ s] is still more preferable, and 2 to 10 [mPa ⁇ s]
- the range of s] is particularly preferred.
- the range of 1 to 40 [mPa ⁇ s] is preferable, and the range of 5 to 20 [mPa ⁇ s] is more preferable.
- the viscosity of the ink can be measured using, for example, a Brookfield viscometer.
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Abstract
Description
まず、本実施形態に係るインクジェット記録装置の全体構成について説明する。インクジェット記録装置10は、枚葉紙にシアン(C)、マゼンタ(M)、イエロ(Y)およびクロ(K)の4色の水性インクを打滴してカラー画像を記録するインクジェット記録装置である。水性インクとは溶媒の主成分が水であるインクであり、水及び水に可溶な溶媒に染料、顔料などの色材を溶解又は分散させている。
給紙部12は、給紙台30に積載された用紙Pを1枚ずつ処理液付与部14に給紙する。給紙部12は、主として、給紙台30と、サッカー装置32と、給紙ローラ対34と、フィーダボード36と、前当て38と、給紙ドラム40とを備えて構成される。
処理液付与部14は、用紙Pの表面(記録面)にインクを凝集させる機能を有する処理液を塗布する。この処理液付与部14は、主として、用紙Pを搬送する処理液塗布ドラム42と、処理液塗布ドラム42によって搬送される用紙Pの表面(記録面)に処理液を塗布する処理液塗布装置44とを備えて構成される。
処理液乾燥処理部16は、表面に処理液が付与された用紙Pを乾燥処理する。この処理液乾燥処理部16は、主として、用紙Pを搬送する処理液乾燥処理ドラム46と、用紙搬送ガイド48と、処理液乾燥処理ドラム46によって搬送される用紙Pの記録面に熱風を吹き当てて乾燥させる処理液乾燥処理ユニット50とを備えて構成される。
画像記録部18は、用紙Pの記録面にC、M、YおよびKの各色のインクを打滴して、用紙Pの記録面にカラー画像を描画する(画像記録工程の一例)。この画像記録部18は、主として、用紙Pを搬送する画像記録ドラム52と、画像記録ドラム52によって搬送される用紙Pを押圧して、用紙Pを画像記録ドラム52の周面に密着させる用紙押さえローラ54と、用紙PにC、M、YおよびKの各色のインク滴を吐出して画像を記録するヘッドユニット56と、用紙Pに記録された画像を読み取る画像読取手段としてのインラインセンサ58と、インクミストを捕捉するミストフィルタ60と、画像記録ドラム52を冷却するドラム冷却ユニット62とを備えて構成される。
インク乾燥処理部20は、画像記録後の用紙Pを乾燥処理し、用紙Pの表面に残存する液体成分(水分)を除去する。インク乾燥処理部20は、画像が記録された用紙Pを搬送するチェーングリッパー64と、チェーングリッパー64によって搬送される用紙Pにバックテンションを付与するバックテンション付与機構66と、チェーングリッパー64によって搬送される用紙Pを乾燥処理するインク乾燥処理ユニット68とを備えて構成される。
排紙部24は、一連の画像記録処理が行われた用紙Pを排紙し、回収する。この排紙部24は、主として、用紙Pを搬送するチェーングリッパー64と、用紙Pを積み重ねて回収する排紙台78とを備えて構成される。チェーングリッパー64は、排紙台78の上で用紙Pを開放し、排紙台78の上に用紙Pをスタックさせる。
図2に示すように、インクジェット記録装置10は、システムコントローラ100、通信部102、画像メモリ104、搬送制御部110、給紙制御部112、処理液付与制御部114、処理液乾燥制御部116、画像記録制御部118、インク乾燥制御部120、排紙制御部124、操作部130、表示部132、不揮発性メモリ134等を備えている。
図3に示すように、インク乾燥処理ユニット68は、用紙Pの搬送方向に沿って10本のIR(infrared)ユニット68H(加熱手段の一例)と、7つの温風ユニット68F(加熱手段の一例)を備えている。IRユニット68Hは、ここではヘレウス社製カーボンヒータCRS4000/1000G(最大出力4000[W])(赤外線ヒータの一例)を用いている。IRユニット68Hは、通電dutyを0%から100%まで変更可能に構成されており、インク乾燥制御部120からの制御信号によって加熱量が制御される。
次に、用紙の乾燥性について説明する。乾燥性の実験のために、下記の3種類の用紙を用意した。
用紙II:「OKトップコート+」、坪量127[g/m2](王子製紙)
用紙III:「アイベストW」、坪量310[g/m2](日本製紙)
ここで、坪量とは、用紙1枚の単位面積あたりの重量である。
用紙II: 7.1[g/m2]
用紙III:18.0[g/m2]
〔手順2〕各用紙にインクジェットヘッドを用いてインクを打滴(付与)する。
(打滴密度)1200[dpi]×1200[dpi]
(インク処方)
・ピグメント・ブルー15:3(シアン顔料) ・・・ 2.5[質量%]
・水不溶性ポリマー分散剤P-1(固形分) ・・・ 1.25[質量%]・自己分散性ポリマー粒子A-01(固形分) ・・・ 8.0[質量%]
・サンニックスGP-250 ・・・10.0[質量%]
(平均分子量250、三洋化成工業(株)製)
・TPGmME ・・・ 4.0[質量%]
(トリプロピレングリコールモノメチルエーテル;以下同様)
・DPG(ジプロピレングリコール;以下同様) ・・・ 4.0[質量%]
・オルフィンE1010(界面活性剤、日信化学工業(株)製)・ 1.0[質量%]
・尿素 ・・・ 5.0[質量%]
・スノーテックスXS(日産化学(株)製、コロイダルシリカ)・ 0.3[質量%]
・イオン交換水 ・・・63.95[質量%](インク打滴量)11.4[g/m2]
(打滴インク内水分量)7.3[g/m2]
〔手順3〕インクが打滴された用紙をIRランプ及び温風にて所定時間加熱する。
ここで、用紙Pに発生するうねりとしわについて、図7を用いて説明する。図7(a)は、用紙Pのインクの打滴位置を示す図であり、用紙Pを打滴面の裏面から見た図である。図7(a)のグレー部分が裏面側のインクの打滴位置である。
Very Good:うねりがほぼない
Good:若干のうねりがあるが品質上問題とならない
Bad:うねりが強く品質上問題となる
Very Good:しわがほぼない
Good:若干のしわがあるが品質上問題とならない
Bad:しわが強く品質上問題となる
本実施形態で用いられる用紙Pは、水性インクを使用してインクジェット方式によって印刷した際に、うねりやしわが発生する用紙である。用紙Pとしては、一般のオフセット印刷などで使用される汎用の印刷用紙(いわゆる上質紙、コート紙、アート紙などのセルロースを主体とする用紙)を用いることができる。また、表面処理されていない上質紙や中性紙等の表面にコート材を塗布してコート層を設けた塗工紙を用いることもできる。
本実施形態は、汎用の用紙に水性インクを用いてインクジェット方式によって印刷する場合に有効に作用する。ここで、本実施形態で使用する水性インクの組成の一例について説明する。
水性インクは、色材の少なくとも1種を含有する。色材としては、公知の染料、顔料等を特に制限なく用いることができる。中でも、インク着色性の観点から、水に殆ど不溶であるか、又は難溶である色材であることが好ましい。具体的には、たとえば、各種顔料、分散染料、油溶性染料、J会合体を形成する色素等を挙げることができ、顔料であることがより好ましい。
本実施形態で使用する水性インクは、水分散物としたときの最低造膜温度(MFT0)が60[℃]以上である樹脂粒子の少なくとも1種を含む。MFT0が60[℃]未満の樹脂粒子を含んでもよいが、水性インク中のすべての樹脂粒子のMFT0が60[℃]未満であると、記録後に画像にベタツキが残り、画像部上に紙等を重ねた際にブロッキングが発生する。本実施形態においては、MFT0としては、80~150[℃]が好ましく、100~130[℃]がより好ましい。MFT0が150℃未満であると、加熱定着時の熱量が小さくてよいため、定着の省エネルギー化の点で好ましい。
本実施形態で使用する水性インクは、乾燥防止、浸水促進および粘度調整を目的に、水溶性有機溶剤を含有することが好ましい。また、水溶性有機溶剤を含有することにより、インクの樹脂粒子のMTFを低めに維持することができ、吐出性などを良好に保つことができる点でも好ましい。また、必要に応じて、乾燥防止、浸透促進、粘度調整などを図る目的で、他の有機溶剤を含有してもよい。
本実施形態で使用する水性インクは、水を含有するが、水の量に特に制限はない。水の好ましい含有量は、10~99[質量%]であり、より好ましくは30~80[質量%]であり、更に好ましくは50~70[質量%]である。
本実施形態で使用する水性インクは、上記の成分に加え、必要に応じて、その他の添加剤を含むことができる。その他の添加剤としては、たとえば、褪色防止剤、乳化安定剤、浸透促進剤、紫外線吸収剤、防腐剤、防黴剤、pH調整剤、表面張力調整剤、消泡剤、粘度調整剤、分散剤、分散安定剤、防錆剤、キレート剤等の公知の添加剤が挙げられる。これらの各種添加剤は、インクを調製後に直接添加してもよく、インクの調製時に添加してもよい。
・s]の範囲が特に好ましい。また、インクの付与をインクジェット法以外の方法により行う場合は、1~40[mPa・s]の範囲が好ましく、5~20[mPa・s]の範囲がより好ましい。
Claims (9)
- 枚葉の用紙の記録面に溶媒に水を含む水性インクを用いてインクジェット方式によって画像を記録する画像記録部と、
前記記録面に画像が記録された用紙を搬送しながら乾燥させるインク乾燥処理部であって、
前記用紙の先端を把持して前記用紙を搬送経路に沿って搬送する搬送手段と、
前記搬送経路に沿って設けられ、前記搬送される用紙の前記記録面を加熱する加熱手段と、
前記搬送経路に沿って設けられ、吸引孔を有するガイド面で前記搬送される用紙を前記記録面の反対面側から支持するガイド手段と、
前記ガイド面の吸引孔から前記用紙を吸引する吸引手段と、
を有するインク乾燥処理部と、
を備え、
前記インク乾燥処理部は、前記搬送経路の第1の位置よりも上流側を前記吸引手段により前記用紙を吸引する吸引領域とし、前記第1の位置よりも下流側を非吸引領域として前記用紙を搬送し、前記第1の位置は用紙の残水量が1.0g/m2以上3.0g/m2以下となる位置に設定されたインクジェット記録装置。 - 前記インク乾燥処理部は、用紙の残水量が0.7g/m2以下になるまで前記用紙を乾燥させる請求項1に記載のインクジェット記録装置。
- 前記インク乾燥処理部は、前記用紙の単位面積あたりの重量に応じて前記加熱手段の加熱量を調整する請求項1又は2に記載のインクジェット記録装置。
- 前記ガイド手段は、前記ガイド面を温調する温調手段を備えた請求項1から3のいずれか1項に記載のインクジェット記録装置。
- 前記搬送手段はチェーングリッパーである請求項1から4のいずれか1項に記載のインクジェット記録装置。
- 前記加熱手段は、赤外線ヒータ及び温風ユニットを備える請求項1から5のいずれか1項に記載のインクジェット記録装置。
- 枚葉の用紙の記録面に溶媒に水を含む水性インクを用いてインクジェット方式によって画像を記録する画像記録工程と、
前記記録面に画像が記録された用紙を搬送しながら乾燥させるインク乾燥処理工程であって、
前記用紙の先端を把持して前記用紙を搬送経路に沿って搬送する搬送工程と、
前記搬送経路に沿って設けられ、前記搬送される用紙の前記記録面を加熱する加熱工程と、
前記搬送経路に沿って設けられ、吸引孔を有するガイド面で前記搬送される用紙を前記記録面の反対面側から支持するガイド工程と、
前記ガイド面の吸引孔から前記用紙を吸引する吸引工程と、
を有するインク乾燥処理工程と、
を備え、
前記インク乾燥処理工程は、前記搬送経路の第1の位置よりも上流側を前記吸引工程により前記用紙を吸引する吸引領域とし、前記第1の位置よりも下流側を非吸引領域として前記用紙を搬送し、前記第1の位置は用紙の残水量が1.0g/m2以上3.0g/m2以下となる位置に設定されたインクジェット記録方法。 - 前記インク乾燥処理工程は、用紙の残水量が0.7g/m2以下になるまで前記用紙を乾燥させる請求項7に記載のインクジェット記録方法。
- 前記インク乾燥処理工程は、前記用紙の単位面積あたりの重量に応じて前記加熱工程の加熱量を調整する請求項7又は8に記載のインクジェット記録方法。
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TWI692413B (zh) * | 2017-11-20 | 2020-05-01 | 日商Ykk股份有限公司 | 搬運裝置以及具備該裝置的印刷裝置 |
JP2021049671A (ja) * | 2019-09-24 | 2021-04-01 | 株式会社リコー | 乾燥装置、シートの乾燥と矯正を行う装置、印刷装置、印刷システム |
JP2021084310A (ja) * | 2019-11-27 | 2021-06-03 | 株式会社リコー | 液体吐出装置 |
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CN108973356B (zh) * | 2017-05-31 | 2020-02-21 | 精工爱普生株式会社 | 记录装置 |
US20220266614A1 (en) * | 2018-09-12 | 2022-08-25 | David Wachs | Mechanical handwriting barcode apparatus and method of use thereof |
JP2020124830A (ja) * | 2019-02-04 | 2020-08-20 | セイコーエプソン株式会社 | 印刷装置および音波センサの距離計測方法 |
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- 2015-04-23 JP JP2016546338A patent/JP6082168B2/ja active Active
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TWI692413B (zh) * | 2017-11-20 | 2020-05-01 | 日商Ykk股份有限公司 | 搬運裝置以及具備該裝置的印刷裝置 |
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Also Published As
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JP6082168B2 (ja) | 2017-02-15 |
JPWO2016035378A1 (ja) | 2017-05-25 |
US9815272B2 (en) | 2017-11-14 |
DE112015003995T5 (de) | 2017-06-14 |
DE112015003995B4 (de) | 2019-01-31 |
US20170129258A1 (en) | 2017-05-11 |
CN106660362B (zh) | 2018-02-27 |
CN106660362A (zh) | 2017-05-10 |
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